Abstract
Nonleptonic two body $B_c$ decays including radially excited $\psi(2S)$ or $\eta_c(2S)$ mesons in the final state are studied using the perturbative QCD approach based on $k_T$ factorization. The charmonium distribution amplitudes are extracted from the $n = 2, l = 0$ Schr$\ddot{o}$dinger states for the harmonic oscillator potential. Utilizing these distribution amplitudes, we calculate the numerical results of the $B_c\rightarrow \psi(2S),\eta_c(2S)$ transition form factors and branching fractions of $B_c\rightarrow \psi(2S)\pi, \eta_c(2S)\pi$ decays. The ratio between two decay modes $B_c\rightarrow \psi(2S)\pi$ and $B_c\rightarrow J/\psi\pi$ is compatible with the experimental data within uncertainties, which indicate that the harmonic oscillator wave functions for $\psi(2S)$ and $\eta_c(2S)$ work well. It is found that the branching fraction of $B_c\rightarrow \eta_c(2S)\pi$, which is dominated by the twist-3 charmonium distribution amplitude, can reach the order of $10^{-3}$. We hope it can be measured soon in the LHCb experiment.
Highlights
The meson Bc, a pseudoscalar ground state of b and c quarks, can only decay through weak interactions
There is not much data for the Bc meson decaying into two-body final states containing a radially excited charmonium such as ψ(2S) or ηc(2S) except the Bc → ψ(2S)π channel, many theoretical studies of nonleptonic Bc decays with radially excited charmonium mesons in the final state have been performed by using various approaches
In Ref. [9], the authors computed the branching ratios for Bc → ψ(2S)X decays with the modified harmonic-oscillator wave function in the light front quark model; in Ref. [10], the ISGW2 quark model was adopted to study the production of radially excited charmonium mesons in two-body nonleptonic Bc decays; the relativistic quark model, the potential model, the QCD relativistic potential model, and the improved instantaneous BS equation and Mandelstam approach were adopted in Refs. [11,12,13,14,15], respectively
Summary
The meson Bc, a pseudoscalar ground state of b and c quarks, can only decay through weak interactions. [10], the ISGW2 quark model was adopted to study the production of radially excited charmonium mesons in two-body nonleptonic Bc decays; the relativistic (constituent) quark model, the potential model, the QCD relativistic potential model, and the improved instantaneous BS equation and Mandelstam approach were adopted in Refs. The perturbative QCD approach (pQCD) [16,17,18,19] based on kT factorization, which can deal with the emission diagrams corresponding to the naive factorization terms basically, but can handle well the nonfactorizable diagrams by introducing the wave function of the light meson in the final states of the Bc decay modes, is widely used. In our recent work [32], the pQCD approach was used successfully in describing the S-wave ground state charmonium decays of Bc meson based on the harmonic-oscillator wave functions for the charmonium 1S states.
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